I,R=input,range
J=lambda:map(int,I().split())
Q=int(I())
a,b,c,d,e,f=J()
V=[[a,b],[c,d],[e,f]]*2
def A(v):
	return v[0]**2+v[1]**2
def D(v):
	return A([px-v[0]*qx*qy,(py-v[1]*qy)*qx])
for i in R(3):
	py,qy=V[i][1]+V[i+1][1],2
	px,qx=V[i][0]+V[i+1][0],1
	r=D(V[i])
	if D(V[i+2])<=r:break
else:
	L=[A(V[0])-A(V[1]),A(V[2])-A(V[0])]
	py,qy=(e-a)*L[0]+(c-a)*L[1],2*((e-a)*(b-d)-(c-a)*(b-f))
	px=2*(b-f)*py+qy*L[1]if c==a else 2*(b-d)*py-qy*L[0]
	qx=2*(e-a if c==a else c-a)
	r=D(V[0])
for q in R(Q):print("YNeos"[D(list(J()))>r::2])